Pre-vascularization of bone tissue-engineered constructs

被引:0
|
作者
Brennan M.A. [1 ]
Davaine J.-M. [1 ,2 ]
Layrolle P. [1 ]
机构
[1] Laboratory of the Pathophysiology of Bone Resorption, Faculty of Medicine, University of Nantes, 1 rue Gaston Veil
[2] Vascular Surgery Department, Nantes University Hospital, Hôpital G et R Laënnec, Boulevard Professeur Jacques Monod
来源
Stem Cell Research & Therapy | / 4卷 / 4期
关键词
Vascular Endothelial Growth Factor; Mesenchymal Stem Cell; Osteogenic Differentiation; Stem Cell Research; Microvascular Network;
D O I
10.1186/scrt307
中图分类号
学科分类号
摘要
Vascularization remains one of the primary obstacles in the repair of bone defects. In the previous issue of Stem Cell Research & Therapy, Pedersen and colleagues show that co-immobilization of endothelial cells and mesenchymal stem cells in a tissue-engineered construct can achieve functional microvascular networks in vivo. These very interesting findings, together with other state-of-the-art research in this field, are presented in this commentary. They highlight the vital role of mesenchymal stem cells as supporting cells to nascent blood vessels. The development of pre-vascularized implants by using clinically relevant cell sources, which could lead to rapid integration into the host tissue, would be of immense interest. © 2013 BioMed Central Ltd.
引用
收藏
相关论文
共 50 条
  • [31] MR elastography monitoring of tissue-engineered constructs
    Othman, Shadi F.
    Curtis, Evan T.
    Plautz, Sarah A.
    Pannier, Angela K.
    Butler, Stephanie D.
    Xu, Huihui
    NMR IN BIOMEDICINE, 2012, 25 (03) : 452 - 463
  • [32] Trehalose glycopolymers for cryopreservation of tissue-engineered constructs
    Wang, Jin
    Shi, Xiaodi
    Xiong, Minghao
    Tan, Wen-Song
    Cai, Haibo
    CRYOBIOLOGY, 2022, 104 : 47 - 55
  • [33] Cryopreservation of Cell/Scaffold Tissue-Engineered Constructs
    Costa, Pedro F.
    Dias, Ana F.
    Reis, Rui L.
    Gomes, Manuela E.
    TISSUE ENGINEERING PART C-METHODS, 2012, 18 (11) : 852 - 858
  • [34] Vitrification as a prospect for cryopreservation of tissue-engineered constructs
    Kuleshova, L. L.
    Gouk, S. S.
    Hutmacher, D. W.
    BIOMATERIALS, 2007, 28 (09) : 1585 - 1596
  • [35] Monitoring of metabolite gradients in tissue-engineered constructs
    Boubriak, Olga A.
    Urban, Jill P. G.
    Cui, Zhanfeng
    JOURNAL OF THE ROYAL SOCIETY INTERFACE, 2006, 3 (10) : 637 - 648
  • [36] Growth and differentiation of alveolar bone cells in tissue-engineered constructs and monolayer cultures
    Malicev, E.
    Marolt, D.
    Velikonja, N. Kregar
    Kreft, M. E.
    Drobnic, M.
    Rode, M.
    BIOTECHNOLOGY AND BIOENGINEERING, 2008, 100 (04) : 773 - 781
  • [37] Reconstructing Mandibular Defects Using Autologous Tissue-Engineered Tooth and Bone Constructs
    Abukawa, Harutsugi
    Zhang, Weibo
    Young, Conan S.
    Asrican, Rose
    Vacanti, Joseph P.
    Kaban, Leonard B.
    Troulis, Maria J.
    Yelick, Pamela C.
    JOURNAL OF ORAL AND MAXILLOFACIAL SURGERY, 2009, 67 (02) : 335 - 347
  • [38] Tissue-engineered bone regeneration
    Petite, H
    M S-MEDECINE SCIENCES, 2001, 17 (01): : 128 - 130
  • [39] Osteoclastogenesis on tissue-engineered bone
    Nakagawa, K
    Abukawa, H
    Shin, MY
    Terai, H
    Troulis, MJ
    Vacanti, JP
    TISSUE ENGINEERING, 2004, 10 (1-2): : 93 - 100
  • [40] The effects of separating inferior alveolar neurovascular bundles on osteogenesis of tissue-engineered bone and vascularization
    Feng, Lin
    Lingling, E.
    Liu, Hongchen
    BIOMEDICAL PAPERS-OLOMOUC, 2015, 159 (04): : 637 - 641
12345